Application Performance using SYSMark 2004 SE

We'll kick off our look at general application performance with SYSMark 2004 SE and as always, and we'll look at the overall score as well as the scores in each of the two suites - Internet Content Creation and Office productivity.

As we saw in our last preview of Intel's Core 2 Extreme processor, it posted SYSMark scores that were well beyond anything either AMD or Intel had been able to deliver in the past. With the final version of Core 2 silicon in our hands and a more stable/tweaked platform, we got even better numbers out of Conroe:

General Performance - SYSmark 2004

At the high end, the Core 2 Extreme X6800 was just under 36% faster than the Athlon 64 FX-62. In fact, even the $316 E6600 was around 18% faster than AMD's fastest. To add even more insult to injury the slowest Core 2 Duo in the test, the 1.86GHz E6300 is barely slower than AMD's fastest Athlon 64 X2.

The old Intel lineup of Pentium D processors is truly an embarrassment. Only the Extreme Edition 965 is remotely competitive and even then it can barely outperform the $183 E6300.

General Performance - SYSmark 2004

Drilling down into the SYSMark scores we've got the overall ICC results, which honestly are not much different than the overall scores we saw above. The Core 2 Extreme X6800 holds a 29% performance advantage over the FX-62 and once again, and the E6600 is able to outperform AMD's best by over 8%.

General Performance - SYSmark 2004

Intel's Core 2 performance domination continues in the Office Productivity portion of SYSMark 2004, with the Core 2 Extreme X6800 maintaining a 42.5% performance advantage over the FX-62. This time around, even the E6300 manages to remain competitive with the FX-62. This is Intel's new $183 part offering performance equal to that of AMD's $1,000 flagship FX processor; it's going to take a lot for AMD to recover from this deficit.

The individual SYSMark 2004 SE scores are graphed below if you're interested. The data is used in calculating the overall scores we've already discussed above:

General Performance - SYSmark 2004

General Performance - SYSmark 2004

General Performance - SYSmark 2004

General Performance - SYSmark 2004

General Performance - SYSmark 2004

General Performance - SYSmark 2004

Power Consumption: Who is the king? Application Performance using PC WorldBench 5
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  • code255 - Friday, July 14, 2006 - link

    Thanks a lot for the Rise of Legends benchmark! I play the game, and I was really interested in seeing how different CPUs perform in it.

    And GAWD DAMN the Core 2 totally owns in RoL, and that's only in a timedemo playback environment. Imagine how much better it'll be over AMD in single-player games where lots of AI calculations need to be done, and when the settings are at max; the high-quality physics settings are very CPU intensive...

    I've so gotta get a Core 2 when they come out!
  • Locutus465 - Friday, July 14, 2006 - link

    It's good to see intel is back. Now hopefully we'll be seeing some real innovation in the CPU market again. I wonder what the picture is going to look like in a couple years when I'm ready to upgrade again!
  • Spoonbender - Friday, July 14, 2006 - link

    First, isn't it misleading to say "memory latency" is better than on AMD systems?
    What happens is that the actual latency for *memory* access is still (more or less) the same. But the huge cache + misc. clever tricks means you don't have to go all the way to memory as often.

    Next up, what about 64-bit? Wouldn't it be relevant to see if Conroe's lead is as impressive in 64-bit? Or is it the same horrible implementation that Netburst used?
  • JarredWalton - Friday, July 14, 2006 - link

    Actually, it's the "clever tricks" that are reducing latency. (Latency is generally calculated with very large data sets, so even if you have 8 or 16 MB of cache the program can still determine how fast the system memory is.) If the CPU can analyze RAM access requests in advance and queue up the request earlier, main memory has more time to get ready, thus reducing perceived latency from the CPU. It's a matter of using transistors to accomplish this vs. using them elsewhere.

    It may also be that current latency applications will need to be adjusted to properly compute latency on Core 2, but if their results are representative of how real world applications will perceive latency, it doesn't really matter. Right now, it appears that Core 2 is properly architected to deal with latency, bandwidth, etc. very well.
  • Spoonbender - Friday, July 14, 2006 - link

    Well, when I think of latency, I think worst-case latency, when, for some reason, you need to access something that is still in memory, and haven't already been queued.
    Now, if their prefetching tricks can *always* start memory loads before they're needed, I'll agree, their effective latency is lower. But if it only works, say, 95% of the time, I'd still say their latency is however long it takes for me to issue a memory load request, and wait for it to get back, without a cache hit, and without the prefetch mechanism being able to kick in.

    Just technical nitpicking, I suppose. I agree, the latency that applications will typcially perceive is what the graph shows. I just think it's misleading to call that "memory latency"

    As you say, it's architected to hide the latency very well. Which is a damn good idea. But that's still not quite the same as reducing the latency, imo.
  • Calin - Friday, July 14, 2006 - link

    You could find the real latency (or most of it) by reading random locations in the main memory. Even the 4MB cache on the Conroe won't be able to prefetch all the main memory.
    Anyway, the most interesting is what memory latency the application that run feels. This latency might be lower on high-load, high-memory server processors (not that current benchmarks hint at this for Opteron against server-level Core2)
  • JarredWalton - Friday, July 14, 2006 - link

    "You could find the real latency (or most of it) by reading random locations in the main memory."

    I'm pretty sure that's how ScienceMark 2.0 calculates latency. You have to remember, even with the memory latency of approximately 35 ns, that delay means the CPU now has approximately 100 cycles to go and find other stuff to do. At an instruction fetch rate of 4 instructions per cycle, that's a lot of untapped power. So, while it waits on main memory access one, it can be scanning the next accesses that are likely to take place and start queuing them up. And the net result is that you may never actually be able to measure latency higher than about 35 ns or whatever.

    The way I think of it is this: pipeline issues aside, a large portion of what allowed Athlon 64 to outperform at first was reduced memory latency. Remember, Pentium 4 was easily able to outperform Athlon XP in the majority of benchmarks -- it just did so at higher clock speeds. (Don't *even* try to tell me that the Athlon XP 3200+ was as fast as a Pentium 4 3.2 GHz... LOL.) AMD boosted performance by about 25% by adding an integrated memory controller. Now Intel is faster at similar clock speeds, and although the 4-wide architectural design helps, they almost certainly wouldn't be able to improve performance without improving memory latency -- not just, but in actual practice. With us, I have to think that our memory latency scores are generally representative of what applications see. All I can say is, nice design Intel!
  • JarredWalton - Friday, July 14, 2006 - link

    "...allowed Athlon 64 to outperform at first was...."

    Should be:

    "...allowed Athlon 64 to outperform NetBurst was..."

    Bad Dragon NaturallySpeaking!
  • yacoub - Friday, July 14, 2006 - link

    ""Another way of looking at it is that Intel's Core 2 Duo E6600 is effectively a $316 FX-62".

    Then the only question that matters at all for those of us with AMD systems is: Can I get an FX-62 for $316 or less (and run it on my socket-939 board)? If so, I would pick one up. If not, I would go Intel.

    End of story.
  • Gary Key - Friday, July 14, 2006 - link

    quote:

    Then the only question that matters at all for those of us with AMD systems is: Can I get an FX-62 for $316 or less (and run it on my socket-939 board)? If so, I would pick one up. If not, I would go Intel.


    A very good statement. :)

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